Add to ORKGInterfacial phenomena, which include interface turbulence, lowering of apparent interfacial tension, and spontaneous emulsification, have been observed in high temperature metal processes involving reactions between liquid metals and liquid slags. The major importance of these phenomena are that they can increase the reacting interface up to five hundred percent of initial value and can also increase mass transfer rate, thus significantly enhances the overall reaction rate. It has been almost six decades since the phenomena was first documented in laboratory by Kozakevitch using x-ray radiography technique and numerous studies have been carried out since then. However, the complexities of the problem, limitations in experimental techniques,...
Direct visualization at 1873 K of 0% to 8% molten FeAl droplets suspended in a SiO2 enriched oxide m...
The dynamics of oxygen transport along the slag-metal interface of pure iron and alumina-saturated C...
A room temperature model has been used to study the behavior of single reacting drops in liquids wit...
During reaction between metal droplets and slag, spontaneous emulsification has been observed. These...
In some metal/slag reactions involving spontaneous emulsification, there is a significant increase o...
The objective of this research work was to develop a methodology for experimentally estimating the i...
Unique experiments were designed to study the surface phenomena in steelmaking reactions. The concep...
An approach for accommodating the interfacial area changes in kinetic equations for heterogeneous re...
The dynamic interfacial phenomena during high-temperature reaction between an Fe-Al alloy droplet an...
The interface metal/molten oxide is of interest for several high temperature processes (metallurgy, ...
High temperature slag–metal reactions play a central role in industrial processes such as refining o...
In the current work, dynamic studies of mass transfer of sulfur from the gas phase to the metal phas...
When a chemical reaction occurs between two immiscible liquids, mass transfer is continuously taking...
The separation of slag and metal in the ferroalloy production process is an important issue that has...
A knowledge of surface area is key to modeling the kinetics of many high temperature processes. In t...
Direct visualization at 1873 K of 0% to 8% molten FeAl droplets suspended in a SiO2 enriched oxide m...
The dynamics of oxygen transport along the slag-metal interface of pure iron and alumina-saturated C...
A room temperature model has been used to study the behavior of single reacting drops in liquids wit...
During reaction between metal droplets and slag, spontaneous emulsification has been observed. These...
In some metal/slag reactions involving spontaneous emulsification, there is a significant increase o...
The objective of this research work was to develop a methodology for experimentally estimating the i...
Unique experiments were designed to study the surface phenomena in steelmaking reactions. The concep...
An approach for accommodating the interfacial area changes in kinetic equations for heterogeneous re...
The dynamic interfacial phenomena during high-temperature reaction between an Fe-Al alloy droplet an...
The interface metal/molten oxide is of interest for several high temperature processes (metallurgy, ...
High temperature slag–metal reactions play a central role in industrial processes such as refining o...
In the current work, dynamic studies of mass transfer of sulfur from the gas phase to the metal phas...
When a chemical reaction occurs between two immiscible liquids, mass transfer is continuously taking...
The separation of slag and metal in the ferroalloy production process is an important issue that has...
A knowledge of surface area is key to modeling the kinetics of many high temperature processes. In t...
Direct visualization at 1873 K of 0% to 8% molten FeAl droplets suspended in a SiO2 enriched oxide m...
The dynamics of oxygen transport along the slag-metal interface of pure iron and alumina-saturated C...
A room temperature model has been used to study the behavior of single reacting drops in liquids wit...